CN115800620B - Full-automatic six-face drill processing spindle motor - Google Patents

Abstract

The invention discloses a full-automatic six-face drill processing spindle motor, which relates to the technical field of motors and comprises: the main shaft motor body comprises a motor body, a sawing and milling module is arranged at the lower end of the motor body, a pressing plate mechanism is arranged on the outer side of the motor body, the pressing plate mechanism comprises a lifting part and a pressing plate part, the lifting part comprises a first lifting cylinder, the pressing plate part comprises a first pressing plate body, and the first lifting cylinder is used for driving the first pressing plate body to move up and down, so that the first pressing plate body presses the plate body, and the machining precision is prevented from being influenced by up-down vibration; the lifting part further comprises a second lifting cylinder, the pressing plate part further comprises a second pressing plate body, the second lifting cylinder is used for driving the second pressing plate body to move up and down, so that the second pressing plate body presses the plate body, and the processing precision is prevented from being influenced by up-down vibration. The full-automatic six-face drill machining spindle motor has the advantages of small occupied production space, low labor intensity of workers, high production efficiency, low production cost, stable product quality and the like.

Description

Full-automatic six-face drill processing spindle motor

Technical Field

The invention relates to the technical field of motors, in particular to a full-automatic six-face drill machining spindle motor.

Background

The automatic six-sided drill is also called as a six-sided drilling machining center, and can finish the functions of machining the front side and the back side of a plate and machining all hole positions of four side holes at one time, grooving the two sides simultaneously, chamfering the special-shaped machining and the like. The automatic movable type positioning device can automatically position according to the size of the plate without turning over the plate and turning around, completely realize through type punching, finish the front side and the back side at one time, greatly reduce labor cost and improve production efficiency.

In the prior art, the sawing and milling of the automatic six-face drill is mostly performed by a separate spindle motor, for example, in the chinese patent application No. 202011020575. X, a numerical control six-face drill head with a tandem spindle is disclosed, and the numerical control six-face drill head with a tandem spindle has a first spindle and a second spindle, which are beneficial to improving the processing efficiency by the design of the first spindle and the second spindle, and although the occupation space of the numerical control six-face drill is not increased, two spindles are still adopted in the numerical control six-face drill head, and further improvement is necessary to reduce the occupation space. Accordingly, there is a need for a fully automatic six-sided drill machining spindle motor that at least partially addresses the problems of the prior art.

Disclosure of Invention

In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description. The summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides a fully automatic six-sided drill machining spindle motor, comprising: the main shaft motor body is arranged on the full-automatic six-sided drilling frame and comprises a motor body, and a sawing and milling module is arranged at the lower end of the motor body;

the automatic six-face drill frame comprises a motor body, and is characterized in that a pressing plate mechanism is arranged on the outer side of the motor body and comprises a lifting part and a pressing plate part, the lifting part comprises a first lifting cylinder, the first lifting cylinder is connected to the full-automatic six-face drill frame and is positioned on the outer side of the motor body, the pressing plate part comprises a first pressing plate body, the first pressing plate body is arranged at the bottom of the first lifting cylinder and is positioned on the outer side of the motor body, and the first lifting cylinder is used for driving the first pressing plate body to move up and down;

the lifting part further comprises a second lifting cylinder, the length of the second lifting cylinder is smaller than that of the first lifting cylinder, the second lifting cylinder is connected to the full-automatic six-face drilling frame and located on the inner side of the motor body, the pressing plate part further comprises a second pressing plate body, the second pressing plate body is arranged at the bottom of the second lifting cylinder and used for driving the second pressing plate body to move up and down, an outer pressing ring is arranged on the second pressing plate body, an inner hole corresponding to the outer pressing ring is arranged on the first pressing plate body, the milling cutter rod is arranged in the outer pressing ring in a penetrating mode, and the diameter of the inner hole is larger than that of the saw blade body.

According to the full-automatic six-face drill processing spindle motor, the saw milling module comprises a saw milling cylinder, a milling cutter rod and a saw blade body, the upper end of the saw milling cylinder is inserted into the motor body and connected with a rotor rod, a first locking nut and a second locking nut are arranged at the lower end of the saw milling cylinder, the saw blade body is sleeved on the saw milling cylinder, the first locking nut abuts against the saw blade body, the milling cutter rod is inserted into the lower end of the saw milling cylinder, and the second locking nut is used for locking the milling cutter rod.

According to the full-automatic six-sided drill processing spindle motor provided by the embodiment of the invention, the bottom of the motor body is provided with the chip suction mechanism, the chip suction mechanism comprises the chip suction bottom cover, the inclined guide cover and the upper guide cylinder, the chip suction bottom cover is sleeved outside the motor body, the inclined guide cover is arranged on the chip suction bottom cover and is positioned at the front side of the motor body, and the upper guide cylinder is arranged at the upper end of the inclined guide cover and is communicated with the chip suction power part.

According to the full-automatic six-face drill processing spindle motor provided by the embodiment of the invention, the bottom of the shell of the motor body is provided with the sealing module, the sealing module comprises two sealing baffle disc sleeves and a middle rotating sleeve group, the two sealing baffle disc sleeves are respectively arranged on the inner side and the outer side of the middle rotating sleeve group, the sawing and milling cylinder penetrates through the middle rotating sleeve group, the sealing baffle disc sleeve comprises a plurality of C-shaped baffle plates, a plurality of T-shaped holes are formed in the C-shaped baffle plates, a plurality of inner screw holes are formed in the middle rotating sleeve group, T-shaped screws are arranged in the T-shaped holes, and the T-shaped screws are connected with the inner screw holes.

According to the full-automatic six-face drill processing spindle motor provided by the embodiment of the invention, the middle rotating sleeve group comprises the outer fixed sleeve, the inner rotating sleeve and the inner sliding mechanism, a plurality of inner screw holes are uniformly distributed on the outer fixed sleeve, so that the sealing baffle disc sleeve is connected with the outer fixed sleeve, the inner sliding mechanism is arranged in the outer fixed sleeve and is in sliding connection with the sealing baffle disc sleeve, and the inner sliding mechanism is arranged among the outer fixed sleeve, the inner sliding sleeve and the sealing baffle disc sleeve in a sliding manner, and the sawing and milling cylinder penetrates through the inner rotating sleeve and is fixedly connected with the inner sliding sleeve.

According to the full-automatic six-face drill machining spindle motor disclosed by the embodiment of the invention, the inner wall of the outer fixing sleeve is provided with the first circumferential groove, the outer wall of the inner rotating sleeve is provided with the second circumferential groove and the two third circumferential grooves, the second circumferential groove is positioned between the two third circumferential grooves and corresponds to the first circumferential groove, the inner wall of the C-shaped retaining plate is provided with the first C-shaped raised strip, the first inner circumferential wall of the first C-shaped raised strip is provided with the second C-shaped raised strip, the second inner circumferential wall of the first C-shaped raised strip is provided with the fourth circumferential groove, the second C-shaped raised strip is slidably connected in the third circumferential groove, and the inner sliding mechanism is slidably connected in the first circumferential groove, the second circumferential groove and the fourth circumferential groove respectively.

According to the full-automatic six-sided drill processing spindle motor provided by the embodiment of the invention, the inner sliding mechanism comprises a plurality of sliding spheres and a plurality of guide pieces, the sliding spheres are arranged between two adjacent guide pieces, each guide piece comprises a first guide clamping seat, a second guide clamping seat and a guide clamping spring, the two ends of each first guide clamping seat are respectively provided with a first guide groove and a clamping spring cylinder, the two ends of each second guide clamping seat are respectively provided with a second guide groove and a clamping spring groove, the clamping spring cylinders are inserted in the clamping spring grooves, the guide clamping springs are arranged in the clamping spring cylinders and abut against the clamping spring grooves, the sliding spheres are arranged between the adjacent first guide grooves and the adjacent second guide grooves, and the first guide clamping seats and the second guide clamping seats are respectively provided with guide convex blocks which are in sliding connection with the fourth circumferential grooves.

Compared with the prior art, the invention at least comprises the following beneficial effects:

1. the invention provides a full-automatic six-face drill processing spindle motor, which comprises: the main shaft motor body is arranged on the full-automatic six-sided drilling frame and comprises a motor body, the motor body is arranged on the full-automatic six-sided drilling frame, and a sawing and milling module is arranged at the lower end of the motor body, so that the motor body is driven to act through a rotating module and a lifting module in the full-automatic six-sided drilling frame, and then the motor body is started to drive a sawing and milling module at the lower end to rotate, the sawing and milling module performs the functions of sawing edges, milling edges and the like on a plate to realize slotting on the side edges of the plate, and the operations of milling, punching, slotting and the like are performed on the surface of the plate.

2. The invention provides a full-automatic six-sided drill processing spindle motor, which is characterized in that a pressing plate mechanism is arranged on the outer side of a motor body, the pressing plate mechanism comprises a lifting part and a pressing plate part, the lifting part comprises a first lifting cylinder, the first lifting cylinder moves downwards to drive a first pressing plate body to press a plate body downwards, so that the first pressing plate body presses the plate body to prevent the vertical vibration from influencing the processing precision, a lifting module in a full-automatic six-sided drill frame drives the motor body to move downwards, and a milling cutter rod in a sawing and milling module can perform operations such as punching and slotting on the surface of a plate; the lifting part further comprises a second lifting cylinder which is connected to the full-automatic six-sided drilling frame through a second plate body and is positioned at the inner side of the motor body, and the length of the second lifting cylinder is smaller than that of the first lifting cylinder; and the clamp plate portion still includes the second clamp plate body, and the bottom at the second lift cylinder is installed to the second clamp plate body, and the second lift cylinder is used for driving the second clamp plate body and reciprocates for the second clamp plate body presses the plate body, prevents to shake from top to bottom and influences machining precision.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of a part of the structure of the fully automatic six-sided drill stand according to the present invention.

FIG. 3 is a schematic view of a part of the platen mechanism according to the present invention.

Fig. 4 is a schematic structural view of a platen mechanism according to the present invention.

Fig. 5 is a schematic structural view of the chip suction mechanism in the present invention.

Fig. 6 is a schematic view showing an internal structure of a main body of a spindle motor according to the present invention.

Fig. 7 is a schematic structural view of a seal module according to the present invention.

Fig. 8 is a schematic view of a part of the internal structure of the seal module according to the present invention.

Fig. 9 is a schematic view of an exploded structure of the seal module according to the present invention.

Fig. 10 is a schematic structural view of a guide member in the present invention.

Fig. 11 is a schematic view of a part of an exploded structure of a seal module according to the present invention.

Fig. 12 is an enlarged schematic view of the structure of fig. 8 a according to the present invention.

Fig. 13 is an enlarged schematic view of the structure of fig. 8B according to the present invention.

Fig. 14 is an enlarged schematic view of the structure of fig. 8C according to the present invention.

Detailed Description

The present invention is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the invention by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1-2, the present invention provides a full-automatic six-sided drill machining spindle motor, comprising: the spindle motor body 100 is mounted on the fully automatic six-sided drilling frame 200, the side edge of the plate can be grooved through the spindle motor body 100, the surface can be subjected to operations such as edge sawing, punching and grooving, and the spindle motor body 100 is further limited for realizing the operations, the spindle motor body 100 comprises a motor body 1, the motor body 1 is mounted on the fully automatic six-sided drilling frame 200, and a sawing and milling module 2 is mounted at the lower end of the motor body 1, so that the motor body 1 is driven to act through a rotating module (not shown) and a lifting module (not shown) in the fully automatic six-sided drilling frame 200, the lower end sawing and milling module 2 is driven to rotate after the motor body 1 is started, the side edge of the plate is grooved, and the operations such as edge sawing, punching and grooving are performed on the surface of the plate. Further, the spindle motor body 100 may be used for various equipment processes in various environments in the market, in addition to being installed in a six-sided drill.

Exemplary sawing and milling Module

As shown in fig. 1 and 6, in particular, the embodiments of the present invention provide a specific structure of the saw-milling module 2, where the saw-milling module 2 includes a saw-milling cylinder 21, a milling cutter rod 22, and a saw blade body 23, where an upper end of the saw-milling cylinder 21 is inserted into the motor body 1 and connected to the rotor rod 11 in the motor body 1, so that the rotor rod 11 in the motor body 1 can rotate after rotating to drive the saw-milling cylinder 21 to rotate;

the milling cutter rod 22 and the saw blade body 23 are respectively arranged at the lower end of the saw milling cylinder 21, the milling cutter rod 22 and the saw blade body 23 are respectively fixed through the first locking nut 24 and the second locking nut 25, specifically, the saw blade body 23 is sleeved on the saw milling cylinder 21, the first locking nut 24 is in threaded connection with the saw milling cylinder 21 and props against the saw blade body 23, the milling cutter rod 22 is inserted at the lower end of the saw milling cylinder 21, and the second locking nut 25 is used for locking the milling cutter rod 22, so that the milling cutter rod 22 and the saw blade body 23 are also rotated after the saw milling cylinder 21 rotates, further operations such as milling, punching, slotting and the like can be respectively performed on the surface of a plate through the milling cutter rod 22, and the side edge of the plate is slotted through the saw blade body 23, so that the function of the dual-purpose of sawing and milling is realized.

Exemplary seal Module

As shown in fig. 7-14, since small particle impurities such as wood dust are generated during the processing of the plate material by the saw milling module 2 and are inevitably introduced into the motor body 1, in some embodiments of the present invention, the sealing module 5 is installed at the bottom of the housing 10 of the motor body 1, specifically, the sealing module 5 with the structure includes two sealing disc sleeves 51 and a middle rotating sleeve 52, where two sealing disc sleeves 51 are respectively installed at two sides of the middle rotating sleeve 52, one sealing disc sleeve 51 is close to the saw blade body 23, the other sealing disc sleeve 51 is far away from the saw blade body 23, wherein the sealing disc sleeve 51 is designed in multiple steps, so that the sealing disc sleeve 51 includes a plurality of C-shaped sleeve plates 511, wherein the number of C-shaped sleeve plates 511 is four, the plurality of C-shaped sleeve plates 511 are installed on the side wall of the middle rotating sleeve 52, the plurality of C-shaped sleeve plates 511 are sequentially connected end to form the sealing disc sleeve 51, the plurality of T-shaped sleeve holes 512 are formed at the C-shaped sleeve plates 512, and the T-shaped screw holes 520 are formed at the T-shaped screw holes 513, and the T-shaped screws 513 are installed in the T-shaped sleeve holes 520; wherein the intermediate rotary sleeve 52 is rotatable, and the saw and milling cylinder 21 passes through the intermediate rotary sleeve 52, so that the saw and milling cylinder 21 can rotate in the housing 10 through the intermediate rotary sleeve 52; here, the C-shaped retainer plate can be conveniently mounted on the intermediate rotary sleeve 52 to realize a sealing effect, so as to prevent wood dust from entering the housing 10 to affect the operation of the motor body 1.

Further, in order to realize the rotation of the intermediate rotation sleeve 52, the intermediate rotation sleeve 52 includes an outer fixed sleeve 53, an inner rotation sleeve 54 and an inner sliding mechanism 55, and the inner sliding mechanism 55 drives the inner rotation sleeve 54 to rotate in the outer fixed sleeve 53, so as to reduce the friction force of the inner rotation sleeve 54 in the outer fixed sleeve 53.

Wherein, the outer fixed sleeve 53 is fixedly connected with the bottom of the shell 10, the inner rotating sleeve 54 is arranged in the outer fixed sleeve 53 and is slidably connected with the sealing baffle disc sleeve 51, a rotating space is formed between the outer fixed sleeve 53 and the inner rotating sleeve, the inner sliding mechanism 55 is slidably arranged in the rotating space among the outer fixed sleeve 53, the inner rotating sleeve 54 and the sealing baffle disc sleeve 51, grease can be filled in the rotating space, and the friction force of the inner sliding mechanism 55 in the rotating space is further reduced;

the saw milling cylinder 21 passes through the inner rotating sleeve 54 and is fixedly connected with the inner rotating sleeve 54, so that the saw milling cylinder 21 can drive the inner rotating sleeve 54 to rotate, and the inner rotating sleeve 54 rotates in the outer fixed sleeve 53 through the inner sliding mechanism 55, so that the saw milling module 2 can normally rotate to conduct saw milling work.

Further, the outer fixing sleeve 53 is provided with a plurality of inner screw holes 520, so that the sealing disc sleeve 51 is connected with the outer fixing sleeve 53.

Further, in order to realize the movement of the inner sliding mechanism 55 in the rotation space, in some embodiments of the present invention, a first circumferential groove 531 is formed on the inner wall of the outer fixed sleeve 53, and a second circumferential groove 541 and two third circumferential grooves 542 are formed on the outer wall of the inner rotating sleeve 54, where the second circumferential groove 541 is located between the two third circumferential grooves 542 and corresponds to the first circumferential groove 531;

meanwhile, the inner wall of the C-shaped retaining plate 511 is provided with a first C-shaped protruding strip 514, the first inner peripheral wall of the first C-shaped protruding strip 514 is provided with a second C-shaped protruding strip 515, the second inner peripheral wall of the first C-shaped protruding strip 514 is provided with a fourth circumferential groove 516, and when the inner rotating sleeve 54 is mounted on the sealing retaining disc sleeve 51, the second C-shaped protruding strip 515 can be slidingly connected in the third circumferential groove 542, so that the inner sliding mechanism 55 can be respectively slidingly connected in the first circumferential groove 531, the second circumferential groove 541 and the fourth circumferential groove 516 through the design of the structure.

Further, the inner sliding mechanism 55 includes a plurality of sliding balls 56 and a plurality of guides 57, where the sliding balls 56 are installed between two adjacent guides 57, and the guides 57 include a first guide holder 571, a second guide holder 572 and a guide clip 573, where a first guide groove 574 and a clip tube 575 are respectively provided at two ends of the first guide holder 571, and a second guide groove 576 and a clip groove 577 are respectively provided at two ends of the second guide holder 572, and the clip tube 575 can be inserted in the clip groove 577, and the guide clip 573 is installed in the clip tube 575 and abuts against the clip groove 577, and the sliding balls 56 are installed between the adjacent first guide groove 574 and second guide groove 576, so that the guide clip 573 can provide elastic force to the first guide holder 571 and the second guide holder 572 to clip the sliding balls 56 between the first guide holder 571, the second guide holder 576 and the second guide groove 531, and the second guide groove 531 can slide circumferentially around the adjacent second guide groove 5757 and the second guide groove 57531; further, the first guide holder 571 and the second guide holder 572 are respectively provided with a guide protrusion 578, the guide protrusions 578 are slidably connected with the fourth circumferential groove 516, and the inner sliding mechanism 55 can be rotated in the above-mentioned rotation space by the above-mentioned structural design, so as to prevent the saw milling cylinder 21 from being blocked in the middle rotation sleeve 52.

Exemplary platen mechanism

As shown in fig. 1, 3 and 4, in particular, a specific structure of a pressing plate mechanism 3 is provided in some embodiments of the present invention, in particular, the pressing plate mechanism 3 is designed on the outer side of the motor body 1, where the pressing plate mechanism 3 includes a lifting portion 31 and a pressing plate portion 32, in particular, the lifting portion 31 includes a first lifting cylinder 311, where the first lifting cylinder 311 is connected to the fully automatic six-sided drill frame 200 through a first plate 201 and is installed on the outer side of the motor body 1, and the pressing plate portion 32 includes a first pressing plate 321, where the first pressing plate 321 is installed at the bottom of the first lifting cylinder 311 and is also located on the outer side of the motor body 1, so when the sawing and milling module 2 processes a plate, the first lifting cylinder 311 moves down and drives the first pressing plate 321 to press the plate, so that the first pressing plate 321 presses down, preventing the up and down vibration from affecting the processing precision, and then the lifting module (not shown) in the fully automatic six-sided drill frame 200 drives the motor body 1 to move down, and then the cutter bar 22 in the saw milling module 2 can mill a surface of the plate;

further, the lifting part 31 further includes a second lifting cylinder 312, the second lifting cylinder 312 is connected to the fully automatic six-sided drill frame 200 through the second plate 202 and located at the inner side of the motor body 1, and the length of the second lifting cylinder 312 is smaller than that of the first lifting cylinder 311;

the pressing plate part 32 further comprises a second pressing plate body 322, the second pressing plate body 322 is installed at the bottom of the second lifting cylinder 312, the second pressing plate body 322 is provided with an outer pressing ring 323, and the first pressing plate body 321 is provided with an inner hole 324 corresponding to the outer pressing ring 323, so that the milling cutter bar 22 can be arranged in the outer pressing ring 323 in a penetrating way, and meanwhile, the diameter of the inner hole 324 is larger than that of the saw blade body 23; so after the second lift cylinder 312 moves down, drive the second clamp plate body 322 to move down and press the panel for the second clamp plate body 322 presses the panel body, prevents to shake about and influences machining precision, and then saw and mill when the saw bit body 23 in the module 2 carries out the fluting to the lateral wall of panel, outer clamping ring 323 can press the panel, prevents that the panel from taking place to remove, improves fluting quality.

Exemplary chip suction mechanism

As shown in fig. 1, 2 and 5, in particular, in some embodiments of the present invention, a chip suction mechanism 4 is disposed at the bottom of the motor body 1, where the chip suction mechanism 4 includes a chip suction bottom cover 41, an inclined guide cover 42 and an upper guide cylinder 43, where the chip suction bottom cover 41 is sleeved outside the motor body 1, the inclined guide cover 42 is mounted on the chip suction bottom cover 41 and is located at the front side of the motor body 1, and the upper guide cylinder 43 is mounted at the upper end of the inclined guide cover 42 and is in communication with a chip suction power part, and by the design of the structure, the chip suction mechanism 4 is located above the sawing and milling module 2 and covers the space above the sawing and milling module 2, so when the motor body 1 in the fully automatic six-sided drill frame 200 drives the sawing and milling module 2 to operate, the chip suction power part is started, so that the chips can be absorbed by the structures of the upper guide cylinder 43, the inclined guide cover 42, the chip suction bottom cover 41 and the like, thereby preventing the chips from entering the motor body 1.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Although embodiments of the present invention have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the invention would be readily apparent to those skilled in the art, and accordingly, the invention is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (5)

1. A fully automatic six-sided drill machining spindle motor, comprising: the main shaft motor (100), the main shaft motor (100) is arranged on a full-automatic six-sided drilling frame (200), the main shaft motor (100) comprises a motor body (1), and a sawing and milling module (2) is arranged at the lower end of the motor body (1);

the saw mills module (2) including saw mill section of thick bamboo (21), cutter arbor (22) and saw bit body (23), the upper end of saw mill section of thick bamboo (21) peg graft to in motor body (1) and be connected with rotor pole (11), the lower extreme of saw mill section of thick bamboo (21) is provided with first lock nut (24), second lock nut (25), saw bit body (23) cover is established on saw mill section of thick bamboo (21), first lock nut (24) support against saw bit body (23), cutter arbor (22) peg graft the lower extreme of saw mill section of thick bamboo (21), second lock nut (25) are used for locking cutter arbor (22);

the automatic six-face drill frame comprises a motor body (1), and is characterized in that a pressing plate mechanism (3) is arranged on the outer side of the motor body (1), the pressing plate mechanism (3) comprises a lifting part (31) and a pressing plate part (32), the lifting part (31) comprises a first lifting cylinder (311), the first lifting cylinder (311) is connected to the full-automatic six-face drill frame (200) and is located on the outer side of the motor body (1), the pressing plate part (32) comprises a first pressing plate body (321), the first pressing plate body (321) is arranged at the bottom of the first lifting cylinder (311) and is located on the outer side of the motor body (1), and the first lifting cylinder (311) is used for driving the first pressing plate body (321) to move up and down;

the lifting part (31) further comprises a second lifting cylinder (312), the length of the second lifting cylinder (312) is smaller than that of the first lifting cylinder (311), the second lifting cylinder (312) is connected to the full-automatic six-face drilling frame (200) and is located at one side of the motor body (1), the pressing plate part (32) further comprises a second pressing plate body (322), the second pressing plate body (322) is arranged at the bottom of the second lifting cylinder (312), the second lifting cylinder (312) is used for driving the second pressing plate body (322) to move up and down, an outer pressing ring (323) is arranged on the second pressing plate body (322), an inner hole (324) corresponding to the outer pressing ring (323) is arranged on the first pressing plate body (321), the milling cutter rod (22) is arranged in the outer pressing ring (323) in a penetrating mode, and the diameter of the inner hole (324) is larger than that of the saw blade body (23).

The motor comprises a motor body (1), wherein a sealing module (5) is arranged at the bottom of a shell (10), the sealing module (5) comprises two sealing baffle disc sleeves (51) and a middle rotating sleeve (52), the two sealing baffle disc sleeves (51) are respectively arranged at two sides of the middle rotating sleeve (52), one sealing baffle disc sleeve (51) is close to a saw sheet body (23), the other sealing baffle disc sleeve (51) is far away from the saw sheet body (23), a saw milling drum (21) penetrates through the middle rotating sleeve (52), the sealing baffle disc sleeve (51) comprises a plurality of C-shaped baffle plates (511), a plurality of T-shaped holes (512) are formed in the C-shaped baffle plates (511), a plurality of inner screw holes (520) are formed in the middle rotating sleeve (52), T-shaped screws (513) are arranged in the T-shaped holes (512), and the T-shaped screws (513) are connected with the inner screw holes (520).

2. The full-automatic six-sided drill machining spindle motor according to claim 1, characterized in that a chip suction mechanism (4) is configured at the bottom of the motor body (1), the chip suction mechanism (4) comprises a chip suction bottom cover (41), an inclined guide cover (42) and an upper guide cylinder (43), the chip suction bottom cover (41) is sleeved outside the motor body (1), the inclined guide cover (42) is arranged on the chip suction bottom cover (41) and located on the front side of the motor body (1), and the upper guide cylinder (43) is arranged at the upper end of the inclined guide cover (42) and is communicated with a chip suction power part.

3. The full-automatic six-sided drill machining spindle motor according to claim 1, wherein the intermediate rotating sleeve group (52) comprises an outer fixing sleeve (53), an inner rotating sleeve (54) and an inner sliding mechanism (55), a plurality of inner screw holes (520) are uniformly distributed on the outer fixing sleeve (53), so that the sealing baffle disc sleeve (51) is connected with the outer fixing sleeve (53), the inner rotating sleeve (54) is located in the outer fixing sleeve (53) and is in sliding connection with the sealing baffle disc sleeve (51), the inner sliding mechanism (55) is slidably arranged among the outer fixing sleeve (53), the inner rotating sleeve (54) and the sealing baffle disc sleeve (51), and the sawing and milling cylinder (21) penetrates through the inner rotating sleeve (54) and is fixedly connected with the inner rotating sleeve (54).

4. A fully automatic six-sided drill spindle motor according to claim 3, wherein a first circumferential groove (531) is provided on an inner wall of the outer fixing sleeve (53), a second circumferential groove (541) and two third circumferential grooves (542) are provided on an outer wall of the inner rotating sleeve (54), the second circumferential groove (541) is located between the two third circumferential grooves (542) and corresponds to the first circumferential groove (531), a first C-shaped protruding strip (514) is provided on an inner wall of the C-shaped retaining plate (511), a second C-shaped protruding strip (515) is provided on a first inner circumferential wall of the first C-shaped protruding strip (514), a fourth circumferential groove (516) is provided on a second inner circumferential wall of the first C-shaped protruding strip (514), the second C-shaped protruding strip (515) is slidably connected in the third circumferential groove (542), and the inner sliding mechanism (55) is slidably connected in the first circumferential groove (531), the second circumferential groove (516) and the second circumferential groove (541).

5. The full-automatic six-sided drill machining spindle motor according to claim 4, wherein the inner sliding mechanism (55) comprises a plurality of sliding spheres (56) and a plurality of guide members (57), the sliding spheres (56) are arranged between two adjacent guide members (57), the guide members (57) comprise a first guide holder (571), a second guide holder (572) and a guide clamp spring (573), two ends of the first guide holder (571) are respectively provided with a first guide groove (574) and a clamp spring cylinder (575), two ends of the second guide holder (572) are respectively provided with a second guide groove (576) and a clamp spring groove (577), the clamp spring cylinder (575) is inserted in the clamp spring groove (577), the guide clamp spring (573) is arranged in the clamp spring cylinder (575) and abuts against the clamp spring groove (577), the sliding spheres (56) are arranged between the adjacent first guide groove (574) and second guide groove (576), and the first guide holder (571) and the second guide holder (577) are respectively provided with a second guide groove (577) and are connected with the slide projection (578) around the first guide holder (571).

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